function nwse = NeweyWest(e,X,L,constant)
% PURPOSE: computes Newey-West adjusted heteroscedastic-serial
%          consistent standard errors
%
%        Adapted by Guillaume Nolin from the original code by Ian Gow
%---------------------------------------------------
% where: e = T x 1 vector of model residuals
%        X = T x k matrix of independant variables
%        L = lag length to use (Default: Newey-West(1994) plug-in
%        procedure)
%        constant = 0: no constant to be added;
%                 = 1: constant term to be added (Default = 1)
%
%        nwse = Newey-West standard errors
%---------------------------------------------------
%% Variables
if nargin < 4 || constant ~= 0
    constant = 1;
end
if isempty(X) && constant ~= 0 %~exist('X','var') && constant ~= 0
    X=ones(size(e,1),1);
end
indexxx = sum(isnan(X),2)==0;
X = X(indexxx,:);
e = e(indexxx,:);
[N,k] = size(X);
if nargin < 3 || L < 0
    % Newey-West (1994) plug-in procedure
    L = floor(4*((N/100)^(2/9)));
end
    
if any(all(X==1,1),2)
    constant=0;
end
if constant == 1
    k = k+1;
    X = [ones(N,1),X];
end
%% Computation
Q = 0;
for l = 0:L
    w_l = 1-l/(L+1);
    for t = l+1:N
        if (l==0)   % This calculates the S_0 portion
            Q = Q  + e(t) ^2 * X(t, :)' * X(t,:);
        else        % This calculates the off-diagonal terms
            Q = Q + w_l * e(t) * e(t-l)* ...
                (X(t, :)' * X(t-l,:) + X(t-l, :)' * X(t,:));
        end
    end
end
Q = (1/(N-k)) .*Q;
nwse = sqrt(diag(N.*((X'*X)\Q/(X'*X))));
end